Secrecy & Rate Adaptation for secure HARQ protocols

This paper is dedicated to the study of HARQ protocols under a secrecy constraint. An encoder sends information to a legitimate decoder while keeping it secret from the eavesdropper. Our objective is to provide a coding scheme that satisfies both reliability and confidentiality conditions. This problem has been investigated in the literature using a coding scheme that involves a unique secrecy parameter. The uniqueness of this parameter is sub-optimal for the throughput criteria and we propose a new coding scheme that introduces additional degrees of freedom. Our code involves Secrecy Adaptation and Rate Adaptation and we called it SARA-code. The first contribution is to prove that the SARA-code has small error probability and small information leakage rate. The second contribution is to show, over a numerical example, that the SARA-code improves the secrecy throughput.

[1]  Giuseppe Caire,et al.  The throughput of hybrid-ARQ protocols for the Gaussian collision channel , 2001, IEEE Trans. Inf. Theory.

[2]  Stephan Pfletschinger,et al.  Adaptive HARQ for imperfect channel knowledge , 2010, 2010 International ITG Conference on Source and Channel Coding (SCC).

[3]  H. Vincent Poor,et al.  On the Throughput of Secure Hybrid-ARQ Protocols for Gaussian Block-Fading Channels , 2007, IEEE Transactions on Information Theory.

[4]  Moshiur Rahman,et al.  Rate Allocation and Adaptation for Incremental Redundancy Truncated HARQ , 2013, IEEE Transactions on Communications.

[5]  A. D. Wyner,et al.  The wire-tap channel , 1975, The Bell System Technical Journal.

[6]  Imre Csiszár,et al.  Broadcast channels with confidential messages , 1978, IEEE Trans. Inf. Theory.

[7]  Michael L. Honig,et al.  Reliability-based incremental redundancy with convolutional codes , 2005, IEEE Transactions on Communications.

[8]  Vijay K. Bhargava,et al.  Joint Rate and Power Adaptation for Type-I Hybrid ARQ Systems Over Correlated Fading Channels Under Different Buffer-Cost Constraints , 2008, IEEE Transactions on Vehicular Technology.

[9]  Lars K. Rasmussen,et al.  Optimal Incremental-redundancy strategy for type-II hybrid ARQ , 2003, IEEE International Symposium on Information Theory, 2003. Proceedings..